17 results on '"Farid, Mujahid"'
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2. Biochar-Assisted Phytoremediation for Heavy Metals-Contaminated Soils
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Muzammal, Shazma, Akram, Asma, Shakoor, Muhammad Bilal, Ahmad, Sajid Rashid, Farid, Mujahid, Shakoor, Muhamamd Hassan, Förstner, Ulrich, Series Editor, Rulkens, Wim H., Series Editor, and Aftab, Tariq, editor
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- 2023
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3. Efficacy of marigold (Tagetes erecta L.) for the treatment of tannery and surgical industry wastewater under citric acid amendment: a lab scale study
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Fatima, Arooj, Farid, Mujahid, Asam, Zaki Ul Zaman, Zubair, Muhammad, Farid, Sheharyaar, Abbas, Mohsin, Rizwan, Muhammad, and Ali, Shafaqat
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- 2023
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4. Efficacy of Spinach (Spinacia oleracea) for the Phyto-Management of Different Heavy Metals Contaminated Sites Under Chelating Agent Amendments. A Review
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Farid, Mujahid, Muntaha, Sidra Tul, Abubakar, Muhammad, Farid, Sheharyaar, Sarfraz, Wajiha, Ali, Shafaqat, Asam, Zaki Ul Zaman, Zubair, Muhammad, Rizwan, Muhammad, Hasanuzzaman, Mirza, editor, Ahammed, Golam Jalal, editor, and Nahar, Kamrun, editor
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- 2022
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5. Efficacy of Duckweeds for Phytoremediation: Morpho-Physiological and Biochemical Alterations
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Mussarat, Ambreen, Farid, Mujahid, Hussain, Wajahat, Ali, Shafaqat, Ashraf, Umair, Azam, Ahmad, Raza, Nighat, Alhaithloul, Haifa Abdulaziz S., Soliman, Mona H., and Hasanuzzaman, Mirza, editor
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- 2021
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6. Heavy Metals Induced Physiological and Biochemical Changes in Fenugreek (Trigonella foenum-graceum L.)
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Fatima, Arooj, Farid, Mujahid, Farid, Sheharyaar, Ishaq, Hafiz Khuzama, Iftikhar, Usman, Rizwan, Muhammad, Zubair, Muhammad, Ali, Shafaqat, and Hasanuzzaman, Mirza, editor
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- 2021
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7. Citric acid enhanced phytoextraction of nickel (Ni) and alleviate Mentha piperita (L.) from Ni-induced physiological and biochemical damages
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Khair, Kashaf Ul, Farid, Mujahid, Ashraf, Umair, Zubair, Muhammad, Rizwan, Muhammad, Farid, Sheharyaar, Ishaq, Hafiz Khuzama, Iftikhar, Usman, and Ali, Shafaqat
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- 2020
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8. Glutamic Acid-Assisted Phytomanagement of Chromium Contaminated Soil by Sunflower (Helianthus annuus L.): Morphophysiological and Biochemical Alterations.
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Farid, Mujahid, Farid, Sheharyaar, Zubair, Muhammad, Ghani, Muhammad Awais, Rizwan, Muhammad, Ishaq, Hafiz Khuzama, Alkahtani, Saad, Abdel-Daim, Mohamed M., and Ali, Shafaqat
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COMMON sunflower ,REACTIVE oxygen species ,SEEDS ,GLUTAMIC acid ,PHOTOSYNTHETIC pigments ,SUNFLOWERS ,SUNFLOWER seeds ,SEMIMETALS - Abstract
Chelator-assisted phytoremediation is an economical, sustainable, and ecologically friendly method of extracting heavy metals and metalloids from the soil. Organic chelators are thought to enhance metal availability and mobility in contaminated media, thereby improving phytoextraction. The aim of the present study was to examine whether exogenous application of glutamic acid (GA) could improve chromium (Cr) phytoextraction by sunflower plants (Helianthus annuus L.). Seeds were planted in plastic pots filled with 5 kg of local agricultural soil spiked with increasing concentrations of Cr (1, 2, and 5 mg kg
−1 ). Glutamic acid (5 mM) was applied to soil in solution according to a completely randomized experimental design, and the sunflower plants were harvested after 8 weeks. The results indicated that increasing Cr-induced stress significantly inhibited plant growth, leading to reduced biomass, photosynthetic pigment content, activities of antioxidant enzymes, and leaf area of the sunflower plants. However, exogenous addition of GA significantly reduced the Cr-associated toxic effects while also increasing the accumulation of Cr in the plants. Moreover, increasing concentrations of Cr in the soil increased the generation of reactive oxygen species (ROS) responsible for the altered antioxidant enzyme activities. The results revealed that GA application to the topsoil enhanced the Cr concentration and accumulation in the root, stem, and leaves by up to 254, 225, 355, and 47, 59, 150% respectively. Further the GA addition reduced the Cr-induced toxicity in plants and might be helpful for enhancing Cr phytoextraction by sunflower plants. [ABSTRACT FROM AUTHOR]- Published
- 2020
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9. Combined application of citric acid and 5-aminolevulinic acid improved biomass, photosynthesis and gas exchange attributes of sunflower (Helianthus annuus L.) grown on chromium contaminated soil.
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Farid, Mujahid, Ali, Shafaqat, Saeed, Rashid, Rizwan, Muhammad, Bukhari, Syed Asad Hussain, Abbasi, Ghulam Hassan, Hussain, Afzal, Ali, Basharat, Zamir, Muhammad Shahid Ibni, and Ahmad, Irfan
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COMMON sunflower , *CITRIC acid , *CHROMIUM , *SUNFLOWERS , *PHOTOSYNTHETIC pigments , *BIOMASS - Abstract
Phytoremediation is an important technique to remove heavy metals from contaminated soils due to its efficiency and cost-effectiveness. The present study was conducted to assess the synergistic role of 5-aminolevulinic acid (ALA) and citric acid (CA) in improving the phyto-extraction of chromium (Cr) by sunflower. Sunflower plants were grown in soil, spiked with different concentrations of Cr (0, 5, 10, 20mg kg-1). Various concentrations of 5-ALA (0, 10, 20mg L-1) and CA (0, 2.5, 5mM) were applied exogenously at juvenile stage. A significant decrease was observed in biomass and agronomic traits of sunflower under Cr stress alone. Further, Cr toxicity significantly decreased the plant growth, soluble proteins and photosynthetic pigments. However, exogenously applied ALA and CA significantly improved the plants' physiological as well as agronomic attributes by lowering the production of reactive oxygen species and reducing electrolyte leakage. Moreover, Cr uptake was increased with increasing concentration of Cr in spiked soil, which was further enhanced by combined application of ALA and CA. [ABSTRACT FROM AUTHOR]
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- 2019
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10. Citric acid assisted phytoextraction of chromium by sunflower; morpho-physiological and biochemical alterations in plants.
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Farid, Mujahid, Ali, Shafaqat, Rizwan, Muhammad, Ali, Qasim, Abbas, Farhat, Bukhari, Syed Asad Hussain, Saeed, Rashid, and Wu, Longhua
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PHYTOREMEDIATION ,CHROMIUM ,CITRIC acid ,SUNFLOWERS ,IRON chelates ,PHOTOSYNTHETIC pigments - Abstract
Soil and water contamination from heavy metals and metalloids is one of the most discussed and burning global issues due to its potential to cause the scarcity of healthy food and safe water. The scientific community is proposing a range of lab and field based physical, chemical and biological solutions to remedy metals and metalloids contaminated soils and water. The present study finds out a possibility of Chromium (Cr) extraction by sunflower from spiked soil under chelating role of citric acid (CA). The sunflower plants were grown under different concentrations of Cr (0, 5, 10 & 20 mg kg −1 ) and CA (0, 2.5 & 5 mM). Growth, biomass, gas exchange, photosynthesis, electrolyte leakage (EL), reactive oxygen species (ROS; malondialdehyde (MDA), hydrogen peroxide (H 2 O 2 ) and the activities of antioxidant enzymes such as, superoxide dismutase (SOD), guaiacole values peroxidase (POD), ascorbate peroxidase (APX), catalase (CAT) were measured. The results depicted a clear decline in plant height, root length, leaf area, number of leaves and flowers per plant along with fresh and dry biomass of all parts of plant with increasing concentration of Cr in soil. Similar reduction was observed in chlorophyll a and b, total chlorophyll, carotenoids, soluble protein, gas exchange attributes and SPAD. The increasing concentration of Cr also enhanced the Cr uptake and accumulation in plant roots, stem and leaves along with the production of ROS and EL. The activities of antioxidant enzymes increased with increasing Cr concentration from 0 to 10 mg, but decreased at 20 mg kg −1 soil. The CA application significantly alleviated Cr-induced inhibition of plant growth, biomass, photosynthesis, gas exchange, soluble proteins and SPAD value. Presence of CA also enhanced the activities of all antioxidant enzymes and reduced the production of ROS and EL. The chelating potential of CA increased the concentration and accumulation of Cr in plant roots, stem and leaves. It is concluded that the sunflower can be a potential candidate for the remediation of Cr under CA treatment, while the possibility may vary with genotype, Cr level and CA concentration. [ABSTRACT FROM AUTHOR]
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- 2017
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11. Microwave irradiation and citric acid assisted seed germination and phytoextraction of nickel (Ni) by Brassica napus L.: morpho-physiological and biochemical alterations under Ni stress.
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Farid, Mujahid, Saeed, Rashid, Tauqeer, Hafiz, Sallah-Ud-Din, Rasham, Ali, Shafaqat, Rizwan, Muhammad, Azam, Ahmed, and Raza, Nighat
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RUTABAGA ,GERMINATION ,CITRIC acid ,RADIATION exposure ,NICKEL ,PHYTOREMEDIATION - Abstract
The complex bio-geochemistry of soil allows pollutant to persist for a longer period of time which further decreased the fertility and natural composition of land. Nickel, an inorganic pollutant, coming from a wide range of industrial and manufacturing units possesses serious threat to soil degradation and crop productivity around the world. The present study was carried to evaluate the combined role of microwave irradiation (MR) and citric acid (CA) on the phytoextraction potential of Brassica napus L. under Ni stress. An initial seed germination test was conducted to select effective time scale of MR exposure. Highest seed germination was observed at exposure of 2.45 GHz frequency for 30 s. Healthy seeds of B. napus L. genotype Faisal Canola (RBN-03060) treated with MR at 2.45 GHz for 30 s were sown in plastic pots filled with 5 kg of soil. Nickel and CA applied exogenously in solution form with different combinations to both MR-treated and untreated B. napus plants. The MR-treated plants showed higher growth, biomass, photosynthetic pigments (Chl a, b, total, and carotenoids) and activities of antioxidant enzymes (SOD, POD, APX, CAT) as compared to untreated plants who showed higher reactive oxygen species (MDA, HO) and electrolyte leakage. Increasing Ni concentration significantly decreased the physiological and biochemical attributes of B. napus both in MR-treated and untreated plants. The addition of CA alleviated Ni-induced toxic effects in both MR-treated and untreated plants by improving antioxidant defense system. The degree of Ni stress mitigation was higher in MR-treated plants. The Ni concentration was higher in root, stem, and leaves of MR-treated plants under CA application as compared to untreated plants. The present study concluded that seeds treated with MR before sowing showed higher accumulation and concentration of Ni from soil, and this phenomenon boosted with the application of CA. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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12. Citric acid enhanced the antioxidant defense system and chromium uptake by Lemna minor L. grown in hydroponics under Cr stress.
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Sallah-Ud-Din, Rasham, Farid, Mujahid, Saeed, Rashid, Tauqeer, Hafiz, Ali, Shafaqat, Rizwan, Muhammad, and Bukhari, Syed
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PHYTOREMEDIATION ,WATER purification ,CITRIC acid ,ANTIOXIDANTS ,LEMNA minor ,EQUIPMENT & supplies - Abstract
Phytoextraction is a cost-effective and eco-friendly technique for the removal of pollutants, mainly heavy metal(loids) especially from polluted water and metal-contaminated soils. The phytoextraction of heavy metals is, in general, limited due to the low availability of heavy metals in the growth medium. Organic chelators can help to improve the phytoextraction by increasing metal mobility and solubility in the growth medium. The present research was carried out to examine the possibility of citric acid (CA) in improving chromium (Cr) phytoextraction by Lemna minor (duckweed). For this purpose, healthy plants were collected from nearby marsh and grown in hydroponics under controlled conditions. Initial metal contents of both marsh water and plant were measured along with physico-chemical properties of the marsh water. Different concentrations of Cr and CA were applied in the hydroponics in different combinations after defined intervals. Continuous aeration was supplied and pH maintained at 6.5 ± 0.1. Results showed that increasing concentration of Cr significantly decreased the plant biomass, photosynthetic pigments, leaf area, and antioxidant enzyme activities (like catalase, ascorbate peroxidase, superoxide dismutase, peroxidase). Furthermore, Cr stress increased the Cr concentrations, electrolyte leakage, hydrogen peroxide, and malondialdehyde contents in plants. The addition of CA alleviated the Cr-induced toxicity in plants and further enhanced the Cr uptake and its accumulation in L. minor. The addition of CA enhanced the Cr concentration in L. minor by 6.10, 26.5, 20.5, and 20.2% at 0, 10, 100, and 200 μM Cr treatments, respectively, compared to the respective Cr treatments without CA. Overall, the results of the present study showed that CA addition may enhance the Cr accumulation and tolerance in L. minor by enhancing the plant growth and activities of antioxidant enzymes. [ABSTRACT FROM AUTHOR]
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- 2017
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13. Efficacy of Lemna minor and Typha latifolia for the treatment of textile industry wastewater in a constructed wetland under citric acid amendment: A lab scale study.
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Ishaq, Hafiz Khuzama, Farid, Mujahid, Zubair, Muhammad, Alharby, Hesham F., Asam, Zaki Ul Zaman, Farid, Sheharyaar, Bamagoos, Atif A., Alharbi, Basmah M., Shakoor, Muhammad Bilal, Ahmad, Sajid Rashid, Rizwan, Muhammad, and Ali, Shafaqat
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TYPHA latifolia , *CONSTRUCTED wetlands , *LEMNA minor , *CITRIC acid , *TEXTILE industry , *PLANT biomass - Abstract
Lead (Pb), copper (Cu) and chromium (Cr) are one of the most harmful heavy metals (HMs), entering into the food chain through the irrigation of crops with an industrial effluent. The present study was performed to evaluate the toxic effects of textile effluents and performance of citric acid (CA) on phytoextraction potential of Lemna minor L. and Typha latifolia L. in an artificially designed wetland. Different doses of textile wastewater (0, 25, 50, 75, and 100%) and CA (10 mM) were applied alone and in combination. Plants were harvested and the data was collected regarding agronomic traits, photosynthetic pigments, antioxidant enzymes, reactive oxygen species (ROS), electrolytic leakage (EL) and HMs uptake and accumulation. The results depicted that the concentration and accumulation of Cu, Pb and Cr in different parts of T. latifolia plant was increased with and without CA addition. The maximum concentration of Pb, Cu and Cr increased in leaves by 279, 240 & 171%, in stem by 192, 172 & 154%, and in roots by 224, 183 & 168%, respectively. Similarly, the accumulation of Pb, Cu and Cr increased in leaves by 91, 71 & 36%, in stem by 57, 46 & 36% and in roots by 76, 53 & 45%, respectively in plants treated with 100% textile effluent as compared to the 25% textile effluent treated plants under CA amendment. In L. minor , the concentration of Pb, Cu & Cr increased by 542, 411 and 397% while accumulation increased by 101, 59 & 55% respectively in overall plant biomass. [Display omitted] • Textile industry effluents contained increased level of heavy metals. • Heavy metal stress reduced the growth and biomass of T. latifolia and L. minor. • CA enhanced photosynthetic pigments and antioxidant enzymes activities. • CA enhanced the bioavailability and accumulation of Pb, Cu and Cr. • T. latifolia and L. minor showed higher efficacy for textile effluent treatment under CA. [ABSTRACT FROM AUTHOR]
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- 2021
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14. Accumulation potential and tolerance response of Typha latifolia L. under citric acid assisted phytoextraction of lead and mercury.
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Amir, Waqas, Farid, Mujahid, Ishaq, Hafiz Khuzama, Farid, Sheharyaar, Zubair, Muhammad, Alharby, Hesham F., Bamagoos, Atif A., Rizwan, Muhammad, Raza, Nighat, Hakeem, Khalid Rehman, and Ali, Shafaqat
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TYPHA latifolia , *CITRIC acid , *PLANT biomass , *BOTANICAL chemistry , *PHYTOREMEDIATION , *PLANT physiology - Abstract
Chelate-assisted phytoextraction by high biomass producing macrophyte plant Typha latifolia L. commonly known as cattail, is gaining much attention worldwide. The present study investigated the effects of Lead (Pb) and Mercury (Hg) on physiology and biochemistry of plant, Pb and Hg uptake in T. latifolia with and without citric acid (CA) amendment. The uniform seedlings of T. latifolia were treated with various concentrations in the hydroponics as: Pb and Hg (1, 2.5, 5 mM) each alone and/or with CA (5 mM). After four weeks of treatments, the results revealed that Pb and Hg significantly reduced the plant agronomic traits as compare to non-treated plants. The addition of CA improved the plant physiology and enhanced the antioxidant enzymes activities to overcome Pb and Hg induced oxidative damage and electrolyte leakage. Our results depicted that Pb and Hg uptake and accumulation by T. latifolia was dose depend whereas, the addition of CA further increased the concentration and accumulation of Pb and Hg by up to 22 & 35% Pb and 72 & 40% Hg in roots, 25 & 26% Pb and 85 & 60% Hg in stems and 22 & 15 Pb and 100 & 58% Hg in leaves respectively compared to Pb and Hg treated only plants. On other hand, the root-shoot translocation factor was ≥1 and bioconcentration factor was also ≥2 for both Pb & Hg. The results also revealed that T. latifolia showed greater tolerance towards Hg and accumulated higher Hg in all parts compared with Pb. Image 1 • Lead and Hg ecotoxicity altered physiological and biochemical functions. • Citric acid improved antioxidant defense system and photosynthetic pigments. • Citric acid alleviates Pb and Hg stress and enhanced plant growth and biomass. • Citric acid enhanced uptake and accumulation of Pb and Hg in Typha latifolia. [ABSTRACT FROM AUTHOR]
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- 2020
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15. Physiological and Biochemical Response of Alternanthera bettzickiana (Regel) G. Nicholson under Acetic Acid Assisted Phytoextraction of Lead.
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Latif, Urousa, Farid, Mujahid, Rizwan, Muhammad, Ishaq, Hafiz Khuzama, Farid, Sheharyaar, Ali, Shafaqat, El-Sheikh, Mohamed A., Alyemeni, Mohammed Nasser, and Wijaya, Leonard
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PHYTOREMEDIATION ,BOTANICAL chemistry ,PLANT physiology ,REACTIVE oxygen species ,STUNTED growth ,CATALASE - Abstract
Heavy metals (HMs) stress causes severe damage to physiology and biochemistry of plant species leading to stunted growth and low yield. Phytoremediation via phytoextraction, a viable low-cost and environment-friendly alternative to other techniques that are often too expensive, impractical and hazardous. However, phytoextraction potential, physiological and biochemical response of various plant species against HMs stress is not fully understood. Among other HMs, lead (Pb) is an inorganic pollutant with deleterious biotic effects. Bioavailability and mobility of the Pb can be enhanced by addition of organic acids. A pot scale experiment was done to assess the effects of Pb on Alternanthera bettzickiana (Regel) G. Nicholson and its ability to accumulate Pb with or without acetic acid (AA). The Results showed that Pb caused significant damage in A. bettzickiana, and its ecotoxicity was evident from increased levels of lipid peroxidation up to 107% under Pb stress. The significant decrease in plant height (32%), root length (21%), leaf area (38%) and number of leaves per plant (46%) was observed. On the other hand, application of AA to Pb stressed plants reduced the oxidative damage by further enhancing the activities of ascorbate peroxidase (APX) and catalases (CAT) up to 16% and 21% respectively. Moreover, addition of AA significantly improved plant total chlorophylls (15%) and carotenoids (50%). The application of AA also promoted Pb accumulation in leaf, stem and roots up to 70%, 65% and 66% respectively. This research concluded that AA has the ability to enhance the phytoextraction of Pb and support the plant growth and physiology under Pb stress condition. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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16. Efficacy of fenugreek plant for ascorbic acid assisted phytoextraction of copper (Cu); A detailed study of Cu induced morpho-physiological and biochemical alterations.
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Fatima, Arooj, Farid, Mujahid, Alharby, Hesham F., Bamagoos, Atif A., Rizwan, Muhammad, and Ali, Shafaqat
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FENUGREEK , *VITAMIN C , *PLANT biomass , *PHYTOREMEDIATION , *PHOTOSYNTHETIC pigments , *GROWTH regulators , *PLANT defenses , *BIOAVAILABILITY - Abstract
Phytoremediation via phyto-extraction is well recognized and sustainable principle for the economical removal of heavy metals from contaminated water and soil. The twofold objective of the present research work was to investigate the remediation potential of fenugreek for Cu under the influence of ascorbic acid (AA). The effect of copper-ascorbic acid chelation on the growth regulation of fenugreek (Trigonella foenum-graceum L.) and its potential to accumulate Cu was investigated in hydroponic medium to optimize concentration with complete randomized design (CRD). Juvenile fenugreek plants were treated with different treatments of AA (5 mM) and Cu (100, 250 and 500 μM). The different morpho-physiological parameters of fenugreek plant such as growth, biomass and chlorophylls were significantly reduced under Cu stress. However, the activities of antioxidant enzymes, electrolyte leakage and reactive oxygen species enhanced with increasing concentration of applied Cu. Results indicated significant increase in plant growth, biomass, physiology and antioxidant enzymes and decrease in reactive oxygen species and electrolyte production in AA mediated fenugreek plants compared to controls and Cu only treated plants. However, it was also found that AA enhanced Cu concentration maximum up to 42% in leaf, 18% in stem and 45% in roots as compared to Cu treated only plants. Moreover, application of AA signified the research results revealing to act as growth regulator and chelator under Cu stress. Image 1 • Copper stress altered biochemical functions and reduced agronomic traits. • Ascorbic acid improved photosynthetic pigments and antioxidant defense system. • Ascorbic acid enhanced growth and biomass of plant by increasing nutrient uptake. • Ascorbic acid enhanced bioavailability of Cu in media and uptake in plant. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
17. Efficacy of Zea mays L. for the management of marble effluent contaminated soil under citric acid amendment; morpho-physiological and biochemical response.
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Farid, Mujahid, Farid, Sheharyaar, Zubair, Muhammad, Rizwan, Muhammad, Ishaq, Hafiz Khuzama, Ali, Shafaqat, Ashraf, Umair, Alhaithloul, Haifa Abdulaziz S., Gowayed, Salah, and Soliman, Mona H.
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CORN , *CITRIC acid , *INDUSTRIAL wastes , *SEWAGE , *INDUSTRIAL concentration , *PLANT biomass - Abstract
The adverse industrial activities discharged contaminated wastewater directly into the water bodies that contain toxic substances such as heavy metals. The contours use of marble industrial effluents may affect the fertility of soil and crop growth. The present study was conducted to investigate the toxic effects of marble industrial effluents (M.E) on Zea mays L under the exogenous application of citric acid (CA) with different combinations such as marble industrial effluent (0, 30%, 60%, 100%) diluted with distilled water and CA (10 mM). The results showed significant decrease in the growth of Zea mays with increasing concentration of marble industrial effluent. The maximum reduction in plant height, root length, number of leaves, leaf area and fresh and dry biomass was observed at the application of 100% M.E as compared to control. Similar to growth conditions the photosynthetic machinery and the activities of antioxidant enzymes (Superoxide dismutase (SOD), Peroxidases (POD), Catalases (CAT), Ascorbate peroxidase (APX)) was also decreased with increasing concentration of M.E. The application of CA significantly alleviated the M.E induced toxic effect on Zea mays and ameliorated the growth, biomass, photosynthesis and antioxidant enzymes activities by reducing the production of reactive oxygen species. The C.A application also enhanced the heavy metal content such as chromium (Cr), cadmium (Cd), Zinc (Zn) in different parts of Zea mays. The results concluded that the Zea mays tolerant varieties can be a potential candidate for the M.E irrigated soil and might be suitable for the phyto-extraction of Cr, Cd and Zn. Image 1 • Marble effluents altered biochemical and agronomic traits of Zea mays. • Citric acid improved photosynthetic pigments and antioxidant defense system. • Citric acid enhanced plant growth and biomass by higher nutrient uptake. • Citric acid enhanced heavy metals availability and uptake in Zea mays. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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